Predetermining dispensing apparatus



Aug. 14, 1945. E. THORES4EN ETAL 2,382,454"

PREDETERMINING DI SPENS ING APPARATUS Fi1 ed Dec. 14, 1959 5 Sheets-Sheet l 1 INVENTORS. //)ar M? Aug. 14, 1945. E. THORESEN ETAL 2,382,454

PREDETERMINING DISPENSING APPARATUS Filed Dec. 14, 1959 s Sheets-Sheet 2 ,INVENTORS 7001 720/1660 AZIT Adg. 14, 1945.

E. THORESEN ETAL.

I PREDETERMINING DISPENSING APPARATUS Filed Dec.

- 14, 1939 s Sheets-Sheet 3 INVENTORS. f/narT/yare n M/yeM/ WM M fi /W d ATTORN t 14, 1945. E. THORESSEN ETAL 27,382,454

FRET-DETERMINING DISPENSING APPARATUS Filed Dec. 14, 1959 5 sheets-sheet 5 151 v "lNVgyTORj 5/70r haw? mma/fwd ATTO Patented Aug. 14, 1945 UNITED STATE PREDETERMINING DISPENSING APPARATUS? Einar Thoresen, Pittsburgh, and Walter fi Mai'shg Grafton, Pa., assignors to Pittsburgh Equitable Meter Company, Pittsburgh, Pa., a corporation of Pennsylvania Application December 14, 1939,"S,erial No. 309,196

' 25 Claims. (o 222-44) The present invention relates to dispensing apparatus for delivering a predetermined quantity of fluid and automatically shutting off the flow of fluid when the desired quantity of fluid has been delivered, and is an improvement on the construction shown and described in the co,- pending application of Einar Thoresen and George J. Genung, Serial No. 64,118, filed Feb-i ruary 15, 1936, for Predetermining dispenser, issued June 24, 1941 as Patent No. 2,247,139.

In predetermining apparatus of the type exemplified by said Thoresen and Genung application, a sensitive latch mechanism is employed to release the valve when the predetermined quantity of fluid desired has passed through the valve. However, in dispensing large quantities of fluid at high velocity the valve latch mechanism may be called upon to resist considerable force and is subject to considerable shock that is liable to break or excessively wear the latch mechanism.

According to the present invention, I employ a separate latching mechanism for the valve and a pilot latch mechanism adapted to be tripped by the predetermining means and release the valve latching mechanism, Preferably, to avoid the water hammer resulting from a quick cutofi when the predetermined quantity of fluid to be dispensed is approached, the valve means is unlatched and relatched in partly open position to allow a reduced flow therethrough until the predetermined quantity of fluid has been dispensed, whereupon the valve means is completely closed. In the preferred embodiment the valve means comprises a large valve and a small valve, and the latching mechanism for the large valve is released to reduce the rate of flow while retaining the small valve in open position until the predetermined quantity has. been ':delivered, whereupon the small valve is closed tostop the flow. This preferably is accomplished by a single latching mechanism whichretains both the valves in open positionand releasesflrst'the large valve and then the small valve: The ?present invention may be employed to secure a'multiplicity of deliveries in conjunction with a mechanism for resetting the predetermined delivery counter.

The preferred embodiment of valve means comprises a valve-movable in a cage and which has a substantially cylindricaljshield :for the upstream'orpressure side of the valve, so that the valve is shielded from thejzimpactor'velocity energy of the fluid passing therethrough. A

passage through the cage tothe upstreamside of the valve, preferably removed from the ve-- locity effect of the fluid, is provided to enable the valve to be operated. .If desired,- this. passage may be restricted to secure a damping-action for retarding closing movement of. thevalve, and an adjustment. of the size of thispassage may be provided to adjust the closing rate, of thevalve. If desired, a pilot valve may be providedin themain'valve to facilitate openingpf the main valve, and'preferably the passage provides a fluid flow to thepilot valves- It is an object of the present inventionto provide a predetermined delivery apparatus ,which will-permit dispensing at a greater rate-of flow than heretofore has been employed I Another object is the provision of a predetermining dispensing system wherein the shock incidental to rapidly cutting off the'rate of flow of fluid is substantially eliminated I Still another object is the provision of a pre determining dispensing apparatus wherein predetermined quantities may befdispensed with excellent accuracyw I 1 1 Another object is the provision of a predetermining dispensing apparatus adapted .for high rates of flow which requires relatively small effort to open the-valve to initiate operation thereof.

These and other objects'ot the invention will 1 be apparent from a considerationof the following specification taken in connection with the accompanying drawings, wherein we have illustrated a preferred embodiment of the invention by way of example,and wherein: Figure 1 is a plan view showing'a preferred embodiment of the invention, 1 i v Figure 2 is a horizontal section of the valve, Figure 3 is an enlarged plan view of" the valve cam and valve locking mechanism,

Figure 4 is a horizontal section of the cage Figure 5 is avertical section on line -VV of Figure 2 of the valve cage, i v

Figure 6 is a section of-the main valve, Figure 7 is an end elevation "of the main valve, Figure 8 is an elevation of the secondary valve, Figure 9 is a side elevation of Figure 3 looking in the direction of the arrow on' line IX, certain parts being in section,

Figure 10 is a bottom cam, I h

Figure 11 is a plan view of thelatch case with the cover removed,

Figure 12 is n end elevation ,ofFigure 11,111 cludinga fragment of the r'egis'ter case,

valve elevation of the valve Figure 13 is a vertical section of a detail of the latch mechanism, I

Figure 14 is a vertical section of a detail of the release plate and latching pin,

Figure 15 is a side elevation of the cam handle,

Figure 16 is a bottom elevation of Figure 15,

Figure t ts-a r} elevation of the predetermine ins r ist r -with the case and c rtain parts in section,

Figure 18 is a side elevation of Figure 1'7, certain parts being omitted,

Figure 19 is a bottom elevation oi the predetermining counter sub-assembly, and

Figures 20 to 25 show details of the predetermining counter wheels.

Referring to the drawings, Figure 1, there is diagrammatically shown a fluid flow responsive means, such as a liquid meter I having an inlet 2 and an outlet 3 to which is suitably connected a valve eas n im ta e gen r ll b th mera 4. 'flfhe meter may be of any suitable ,construc 1 19: t pe the pr e r d n m i n being h n and ld' ss ibs i t e a l c t on of Walte Mesa s ria ma i. l s De e be 3, 937i'a issue rhb'ma v 2 42, as Patent N "4 register case, indicated' g enerally 'by he num a i s secu e to th Keefer in a su a le xi mne an reie iah v' is a n 9 'irbtre at i to the ew a h re r be described. v

Th a ve means i 9 Q fi g i ure 3?) has aniriterr' al shoulder '1 providing' an orifice} therethi'oughfand a gasket 9 is' seated eh' the interior naeflor this shoulder. A valve cage 'wng'agni gasket 3' at one end and is held in p ace in engagement'therewith by; c'ovler ll "suitably secured? tothe casing by bolts [2, and a gas'ket '43 interposed between the cage and"co"ver"exte nding over" the end of the cage. is dowel H iocateslthe cageiand holds it in henrotatable positionrelativ'e'to the casing. Cage' communicates withthe' valve inlet l by a plurality of ports or openings 5' (Figures 2 and 4')"i 'n th e periphery theronandhas a valve seat surface 1:1 f9rrried" ori'its interior ange surrounding the opening "l'8.' A large valve I 9 having 'a sleeveorshield l9 (Figures -21 "6 and 7')"'is slidably received on the interior of cage l0, sleeve H having guiding rugs'zo at its 'upper end Valv'e' l3 cariies a soft valve member zl which is held thereon by'a nut 22 threaded on an examslon -23*a t'tli endthereo'f." V alveiw has a bore fl'therethrough terminating in'a valve 'seat '25, A counterbore 23 "provides a guide to' receive a second smallervalve 21('Fi'g-ures'2 and 8) movable therein and carrying a seating washer 28 clamped in" place by afiariged bushing" '2-9 and a screw 31!. Valve'fl has wings or extensions 3| which extend 'between the posts 32 on the interior'of-valve sleeve 19" (Figures 2, 6 and '7) and a spring 33 abuts the wings 3| to urge valve 27 against its seat, the opposite end of the spring being retained by a flanged "bushing 34heid on the end of posts 31 by suitable screws received in the holes .35 (Figure 6).'

As'seenin Figures '2 and 9, :an operating stem ifiitor thevaive means having a squared end 31 extends through the cover H and its interior and 38 is received in a suitable bearing recess 39 in the cover. A bifurcated operating arm 41 re- 1' ceives the squared end 31 of the operating stem and a l n 42 z s sived in the b t rc fiio is secured in place by meanspf a {pin A; and a Fet P M- he PP M ms {of ink 4 is received in a t me? .2 a d t i the end of valve stem 45 and is retained in position by a pin 4'! and a cotter pin 48. The cover II has bosses 49 (Figure 2) extending therefrom which serve as an abutment for one end of spring 53. The other end of the spring surrounding posts 32 and guided thereby engages the extensions 34 ivalve memher 27.

I when Qperating stem. 31$ is rptated to rotate lever 41, the action will be to first unseat valve 2 1 against the bias of springs 33 and 50 because the fluid behind large valve l9 tends to keep the large'v-alve on its seat. The opening of small yalveZl' allows a flow to take place from chamber ,5} passages 55 1 and 56 into chamber 80, and through the valve to reduce the pressure differencehetmeen ,the upstream and downstream sides of valve J9, thusmaking valve 19 easier to open. Continued movement of stem 38 until spring 33 is substantially completely compressed, causes valve IE! to be opened so that when stem 36 is lockedin this position both valvesare thus held open QP-he' fluidthen flows from inlet l5 through ports IG'and through the space between seat II and' valve I8. As there is only a small connection from chamber 52 by passages 5| and 59 to the rear of thevalve l8, there is substantially no impact pressure exerted on valve L9. The valvcs open againstthe upstream side of the line fluid flew; and'ith'e pressure difierence on opposite side of valveo'ri-fice Band the springs 33'and 5i! tend to .close the'valves However, valve [9 can close independentlyof valve :21 under the action of linew'pressure when valve 21 is held at anintermediate point, as'will hereafter appear.

Adash pot action is provided to damp the closing'movernent of valve J3. Casing 4 has a bore communicating with acharnber 52 surroundingcagie'zm', and a hollow throttle pin 53 passes through the bore 64 and has ahole 54 communieating therewith. The valve cage has a hole 55 through a Web in its wall connecting with the norm 56 in the throttle pin. The outer end 51 otthe pin passes through a suitable stufiing box 58 and has a kerf in its end whereby it may-be rotated? A cover 53 normally closes the end of this-pin. When valve [9 closes, fluid is forced from chamber 62 through hollow throttle pin 53 and hole 51 'intothe space B U behind the valve,

and 'by'rotatingpin 5 3 the size of openin 54 and hence the throttling action may be adjusted. An auxiliary'passage 59' permits flow when opening 55 is closed by one of the lugs 29 of valve J9.

- Operatingstem 36 passes through a stufling box .3! (Figure 9) which'may be lubricated through a suitable grease iltting' same tumr g box being closed by'a cap 63 which receives a flange 64 of the operating stem; The outer end of operating .stem 3 6'is squared as indicated at 66 (Figure 3), and carries a; cocking handle 61 by which the valves may be opened manually. Stem 36 carries i -part'ot the valve latching'means and part of the .cockingm'echanism for apilot latching means, as will hereinafter appear. A cam member, indicated generallyat 10,secure d to the upper end ot'stem 3:6, has a curved track ll concentric with its periphery on'its upper surface.- A bracket 12 {Fi ures 3 and 9) secured to the valve case, has a pin 13 passing therethrough, and through the yoke 514' (Figures 3,'9, l5 and 16) of a handle or follower 15, whereby the follower-is pivotally secured'to the bracket. Follower 15 has an extensign it having a pin '11 secured therein upon which is journalleda roller [8' adapted to operate on the top face of cam track H. A quadrents ap d extension or valve latching piece 19 through a slot in bracket extension 80, the other s end of spring 83 being suitably fastened to follower 15.. Thus bar 82 is urged against boss 81 on follower 15 by spring 83 and the follower and bar are constrained to move together; A second spring 85 is secured to a pin 86 in bar 82 and has its other end secured to bracket 80 wherebybar 82 is biased to the right as seen in Figure 9.

When cocking lever 61 is turned counterclockwise, as viewed in Figure 3, to open the valve means, the elevated camtrack 'II passes under roller I8, thus pivoting follower I to the left to the dot and dash line position, as seen in Figure 9, and boss 81 on follower I5 pushes rod 82 to the left against the bias of spring 85, in which position it is retained by a pilot latching mechanism presently to be described. Spring 83 draws and resiliently holds the follower to the left. A recess 88 is provided in the under face of the cam to provide a locking edge 88a. As hereinbefore described, initial rotation of stem first opens the small valv 21 and upon continued rotation of stem 36 sufficient to bring roller I8 to nearly the mid point of the cam track II, bar 82 is latched.

Continued rotation .of stem 38 carries the mid point of cam track H under and beyond roller I8 and. further opensvalve I9 until the cam surface 89a rides over latch piece I9 and pivots follower I5 to the right and away from rod 82 against the resistance of spring 83, so that when the cam edge 89 becomes disposed beyond the latch piece I9, spring 83 returns follower I5 to abutting contact with rod 82 and lifts the latch piece I9 into latching relation with the cam edge 89. As the path of travel of the cam I0 is slightly above the center of pivot I3, the engagement of cam edge 89 with latching piece'I9 will bias follower I5 to the left and prevent return movement of stem 36, so that valves I9 and 2! will be held open. V

[A pilot latch case 90 (Figures 1, 11, 12 and 17) which encloses the pilot latch mechanism, is substantially cup shaped and has a cover plate 92 therefor which is held in position against an internal shoulder 93 by suitable screws 94 passing through the bottom of the latch case. The bottom 95 of the case 90 carries a bent release plate 96 loosely pivoted on the line of bend by two headed pins 91, the plate being shown in one extreme position in Figure 12. Release plate 96 has a hole 99 in the corner terminating in knife edges I00, and a hole IOI located in the bottom of the case 90 allows the lower end of a tube I02 to pass therethrough and rest on the knife edges I00 of the release plate, which provide a bearing edge therefor. A pin 203 passing through suitable holes I04 in the top cover and bottom of the case has its lower end resting on the offset portion of release plate 96 and an elongated weight I05 loosely pivoted at one end by the headed pin I06 passing through enlarged holes I0'I in the weight, rests on pin I03, thereby holding plate 96 in the position shown in Figure 12.

The upper end of tube I02 extendsthrough a suitable opening in the top cover and an enlarged hole I08 is provided in the weight I05 to accommodate the tube I02. The top Plate 92 has four guide posts I09'riveted thereto which hav 'hea'ds H0 at their upper ends,' and a thin disc or floating member III is held in elevated position against heads I I0 by tube I02 and has holes II2 therein looselyIfitting over the guideposts I09 so that the plate 'I II is capable of'universal rocking or tilting movement 'onthe end of the tube I02. J It will be evident from'theconstructionso far described that the weight I05 bearing of; pin I03 depresses the right end of release plate 96, as seenin Figures 1 1 and 12, and the opposite end of the release plate'bears upwardly against the lower end of tube I02, holding it in elevated position, and thus holds the disc I I I in its uppermost position against 'gu'idepost heads H0, as seen in Figure,12., 7

The case. 90 is cut out at H6 and; II! (Figure 11) to receive a slide bar II8 having a stop pin H9 extending therethrough at one end to limit its lengthwise movement in one direction through the case. Bar I I8 is secured to bar 82 (Figure 9) by a pin I2I passing through a slot I22 in the hollow end of bar 82, and a piston I23 is urged by spring I24 in th bore I25 against the end of bar' I I8 to absorbany shock. The bar H8 is cut 1 out at its bottom,'as indicated at I3I (Figures 11 142. 1 The lever I44 has areces s, I48 substantially andlZ) and has apin I32suitably secured therein; which receivesa roll er or catch member'I34 located in the recess I3I. A curved lever I36 is pivoted on a headed pin I3'I riveted to the bottom "9f the casing 90, 'and has acocking'tail I38 which passes into tlie recess I3 I in'ethe path .o f roller I34. Adjacentthe tail I38 the lever is cut out at, I40 substantially concentric with roller I34; It

will .be evidentthat sliding motion-pf the bar I I8'to the left, the roller I 34 engages the tail.

I38 and swings the lever I33 about the pin I3! as a pivot in clockwise direction, and upon movement of. bar H8 to. the right the roller I34 engages re- .taining shoulderQI4 onthe lever. I36 to swing the vlevercounterclockwise.

The lever I36 carries1arol ler I42 pivoted: on ,a pin I43 at the end thereof. A sec0nd or i n termediate curved lever I44 is. pivoted on a shouldered pin I45 (Figures,1l and 'lli) rivetedtojthe bottom of the case '90',f a n'd carries a pin I46'at .its'opposite end with al'roller I" mounted there- 'on. and it willbe seen thatethe shouldered, pin I 45 and the .pin .l 46 maintain the lever I 44, elevated conforming to the circumference of roller I42,

whichprovides a tail .I5I.. It will be evidentthat when the lever I36 moves infclockwise direction it engages the .tail, I5I an s in' 's. fih'e lever 14,4 counterclockwise about ,thepivot pin I45,

r A third or latch lever I53 is pivoted on a headed pinjl54, the pivot pins I45 and I54 being preferablebut not necessarily substantially diametrically opposite. The latch lever I53 has acut' out portion I55 which is cut substantially .on the radius of roller I4I and'providesa tail I56. Lever I53 hasastraight end portion I5'I at its fr ee end. When lever I44 is rotated counterclockwise, roller mengages the tailsl 5s and rotates the latch lever =I53 in-a clockwise direction about the pivot I54. --A detentpin I59 (Figures lland 14) isriveted or otherwise-secured to -one corner of the release plate" 96- and extends'witha loose fit througha suitable hole in the bottom 950i casing into the path of lever I53. *This pin has aflat side J portion I6I"adjacent.its en'd'and the opposite side -of the pinis cut an a bevel; as indicated at I 62. From the foregoing description itzwill be evident =21 n e mslt eh e h eihleefie e t ee whe the We 4 A? she 1 e e in the v-eeeked Pqslfieh shown i Eieh e .2 the a e hiss d si t by h smi es .5 Whe 9) e ehe ro e 1 en age the e were sheekeer 141 sf ,re ess 9 fi itenes to etete e e 43? .eehn e e elewis bu s l t h le e h f e er m by in 9 an x t h ieh 9s e e -I 4, th

lever I36 is not free to rotate, so that the par Us is h ld h sheh sie M eseihs m ement the eigh ph she h' h leteh m eh hlsm is due t sp ing -5, so the treih s e nst e r gardl s of the e hi flew th e sh the xe t e m ans A wi e ghee-e meme; 1 2 bhr H3 eweerehhs ith e h 1 4 1 l vee .36 i m iees e Preven le er W eeeidehtell eb un ing into ee h e h s h h .efter he .leteh mechanism has been released, for if this pceh red heu ee H eve-hie p yeh the'he --i em be n m ed e he le t9 e eek th h e hpeem e he hehel e eeuntere eehwise eime eieh, es h e hbe ere h s e hee .hih ell en h s el v l 1mg tete eeh mem e I! he eus e ge 11' he u c ea se le 8, and e sees fiehewe 1. eewt el ehwise te he setnd ,ee h hhe nes eh s shown he .E shre 9- he 's 8: en eell 1. .ehd tmetes he 82 .ehd her up hele there o t th Lefit, thu l e was h he; 8 i t e e teh t ehs el i p ee l Flew-e we see h e le eh e ehissh 9 that he ex is the 19mm it ext em le t hs pesiheh h le e hihs ehse emeht sh h e e W, Furt e me e heh .e dle 67 thee fill-hr epens e lye. ,ltheh e 5 s n w eleesee the P1 9? lefie h, s eke 899F119 eteh P eee e &%R ,h9i eg s .9 will he d the Je se-a d smell sel es "I end i t Ldeser bede-hs.ext eme-le t x-netehth asseries H2?- h pil t l tehihs-meehsh th shesltleh th s rike bar has potential energy .glueto the .tel s io'n .of hri e 5 e d wh e t e n le h h xeleeses her an wi m ve he h r ht tpw lees i s whe al e ergy. t

- with h when: s e 21 936i; hmli fiewn h eu h e xe e hed hreieht meter. eh .meeh Peeide ie l h eteh hs the al e L end .21 wheee p eqeterhhhee hnehthy hes he seh h eheh m eer- 7he els l s e i sai ete t Ne- 2,247,139 may h mplexeq i r thi purpos H we e 1h ,hehehhs high t te of new thr u h t e meter es er e am le, l ws- 9. the

e d r lei 709 .s-el eh l met A 1 hhleef ehebl t -sh deeh shh eh the new and eeeehd h ly I P vi e mean fie: s ew e es -n m h y lye 1. es the eet mih e elhme i p mhehed w il lee ih th .s eeneer el e 21. even to edh e the low unt th J xe etehn hed ehent i n eehee wher e ehthe seeehee y valve i e esee- Thlsmeehshew i l he esehh e- I he e iste eeh ei 's e reme erh .e she 5) .ee ry he eheree ste ehil h th Re is e ease Peih seemed s bethe the ePeh .eese 9 by emv h 1.." .ehees hse tense '1 e the e re ste hees h hey e .s ve e u to e h ax y giesireql gljr'eptior A meter gj'iveu shaft (not shown) passes through the tube I02 and carries ag'ear at its upper end not shown) meshing with gear l82 on niai 'driv'e shaft 1-88 journalled in the frame I16 and carrying a bevel gear l84'for giri-vin'g bevel gear I85 on totalizing counter drive shaft 186 which drives 'a' suitable" totalizing bbunter. A suitable wor m I811 .on shaft I843 tooperating with Jworm wheel I 88 drives unit indiwhereby the sheitl3. hr ugh e s ite-is e h et eh se P 8--. v

The e eetieh sheet JSJ, whieh of s t he shaft th i i e ieh ll -lceu leh h .a ea m thereo hieh ri en i h'z s r 1-810 sh t 1. .9- Y R h M-M- Qh sha LS1 d iv s t e h es seer-s er is slee v et l eh y seemed h sheit WI, we t e ihd e ser i l's L 3 hs ewe whe -42 s a 4. .8 ,eh see 1 r s ect e y to ihe te u it s e h tete se ons e hve ed- 'The h v z e the ihed ee e 1. am I9? is mo e ul describ s ,Be eh 'Ne- 2,099 26 i sued Auus 1 1937 to Ne se lJ eih r ehh Welt H- Besker w r se e eetermwl h sha 1 .3 e -ene !=e with e werxn Wh l 9.3 en he ede eimlh e .eehht s s ewing she 304 which is shi eb e el e n 4 e ri g hle hvm and e (a he e seer 'ee seee ee eh. n er est- F re W- Th e ede r h hihe -.QQHFA4ZBI shh ess mbh me 1s shes e 9 heehhg h ek '05 en e air f Plat Nhseee ed. heret a h ere-me 6 by sui a l sehew not shew w p ee s 21 ne the ten heyihg thneehe 'e eds th heehmh h see h M th ehes'h zhut m eee th .e.-'; egin-me m dieh ha 213 is .ihhrhelled he .suitebl h s he i a d met s -eh er e, e beve g ar 1 H seeme tee eeee e i en b h -e see 12. 1 a d .e pu see Z Mh-she t m with erie-ins eer e 2445 he th m e tehhlhms .Q mer .wheelzassemblx: Ahmed sm les lat ills e'h t hs seer 5; iteh p s e l'e eh af an, me selector gr pre 1et im imz e hnher w ee as embly comp is s he hhhs eoun er wh l 22 e i d numbe Q WHPWPWIWQSWW be us d 1 he t e me ewm hh it desired W th -Th huhsixed s me: 223 .ee hpri es h etereh v hee ed ee hlehl er her suita le 1. .terelh wih ehhee th eee eh eh i heme 2.2. ith e -e h se w en??? n fie eriphery 'Ifh ee resmee hs flee es ZZBensl 22, Where 1.919 counter wheels 222 and 221 preferably are megeof mp res h': e -ea ed Q weter e peeti elyl e th h tteh s e notches Mi ena-23.2. theses P e e ebh' e e-the s ehe eiste e hem h eehte o QB iB PB W'QQ-QPWY T whee s the ettem 0 het h 2.2 h flehse-ei the t ns w ee 22 heavve ha en ed t ehe h eh 2. hmetal hu 1: Weed th heh he ylihh -llih wh eh w e h h fl ge a22 eteh d t e sie mien l e vlee e ell ens e :m thed reh e plat 2.35- th letter hh flmgkast eis e hg-het in it n e phe b w we t et Oh r e'e pps t sis wi-t hh mm r l linder is e we s e hat he p a A3? h v ng. 3.?- l' t rfieh R wet 339 h e t e mat sas emb ed TEMP? end he h b 13 ma h swseed .te held t in leee e heyhev Fie ne T h ns-e s it Wh el a e s seve all s hsh r WWFWQQQD; h t ehsfi see -34? es e e m e o e 24! h r ee -Me th hu 14:33 me h essezhhlee ees heh es 9X12? hel l e 12-42 en th huh G e 2M hespi ee hins ivet h re n wh reeei h n w 24 e d n a may employ the same pawl and ratchet structure as the tens or hundreds transfer gear. Or if desired, a finer pawl and ratchet drive may be employed, as shown in Figure 24, in which case a pair of modified pawls 246 are pivoted on pins 243 in the gear 2I6 and are held outwardly by cantilever springs 241 hooked around pins 248 and 249. vThe ratchet plate in this wheel comprises an internal toothed wheel 250 (Figure 24).

inserted in the Celluloid numeral wheel 225, and in assembled position as shown in dot and dash lines in Figure 24, the pawls 246 are urged into engagement with ratchet wheel 250.

A shaft I (Figures 17 and 20) fixed in the end plates 208'carries loosely mounted mutilated transfer pinions 252 adaptedto co-operate with the transfer gears 240 to intermittently drive the tens and hundreds counter wheels. In operation, when spur gear 2I6 is driven, it drives the units wheel through the ratchet and pawl structure shown in Figures 2 3 and 24. Each time toothed transfer plate 235 of the units wheel comes to the position adjacent a transfer pinion 252,'th e notch 236 engages a mutilated tooth thereof and turns the pinion one tooth, this movement being allowed by the notch in looking plate 234, and by engagement with pinion 252. Hundreds counter wheel 223 makes one revolution for ten revolutions of tens counter wheel 222, and tenscounter wheel 222 makes one revolution for ten revolutions of units counter wheel 2'2I. From the foregoing description it will be apparent that the numeral wheels are driven step by step in one direction by the transfer gears 240 andv pawl and ratchet construction, and may rotate in the opposite direction for setting independent of the drive mechanism therefor.

For setting the counter wheels they are each provided with a recess at 253 in the plate 234 and have pawls 254 located therein and pressed inward by bent wire springs 255. Notches 256 in shaft 224 are provided to engage the pawls, the notches being arranged in known manner so that only one pawl can be engaged at any time, and by turning shaft 224 clockwise as seen in Figure 20, the numeral wheel 225 secured to flange 226 and plates 234 and 235 will be rotated, this rotation being allowed by pawls 244 idling over the internal ratchet 231.. Thecounter wheels thus are individually set to deliver the desired or predetermined quantity of fluid.

A weight 260 (Figures 1'7 and 19) has a yoke 26I secured to one end in any suitable manner and journalled on a shaft 262 passing through suitable holes in the yok and fixed at its ends in plates 208. Aroller shaft 264 is mounted in the yoke and has loosely journalled thereon "rollers 265, 266 and 261. When the register wheels 22I, 222 and 223 are all set away from zero, the roller 261 rides on the flange 226and holds the weight 260 in elevatedposition. By having the weight supported by the counter wheel with the least frequent movement,thel1o'ad is kept off of the wheels that are turning with greater frequency, It will be apparent that instead of having flanges 226, 228 and 229 of varying diameter, the rollers 261, 266 .and 265 maybe of varying diameter, or if desired, of the same diameter.- When counter wheel 223 turns to zero, roller 261 falls into notch 221, and roller 266 then contacts flange 228 and. carries the weight. Notch 23I of the tens wheel is not located opposite zero, but is in advance thereof, preferably opposite numeral eight, so that when notch 23I reaches roller 266 and notch 232 of units counter wheel reaches roller 5 (at which point the reading is units), the weight is allowed to descend, and rod 210, swivelled to pin 2 in weight 260, contacts and depresses-floating plate I I I and with it detent pin I59 to trip the latch mechanism in case 90 and thus release bars H8 and 82 for movement to the right. (Figure 9) The initial release thus occurs when about eighty units remain tobe delivered. The released position of plat I II, weight I04 and release plate 96 are shown in Figure 17." V a I When thus released, b ar 82,which isquite massive, is pulled to the right by spring (Figure 9) and against the follower 15 with'considerable force, sufiicient to overcome the friction between cam edge 89 and latch piece 19, and

, pivot the follower to the right todepress latch piece .19 s'o that cam 10 and stem 36 are released for turning under the bias of ,the valve springs 33 and 50, tending to close the valves. Valves I9 and 21 thus move slow1yi ;toward closed position, the closing movement being dampe by fluid in chamber 52 (Figure '2) being forced through openings 54 and 56 inpin 51 to the chamber 60 at the rear end of the valve. As flow continues through the valves to the meter, the. meter drives the register so that roller 265, is forced out of notch 232 and rides on flange 229, thus lifting,

the weight 260 and rod 210,,from the floating plate III. Thisallows the release plate 96 to raise tube I02 and floating plate I II so that the pilot latch mechanism in case is set for another latching movement. As" the cam 10 continues'to turn under the action of springs 33 and 50, the vertical curved track 1I pivots follower 15 counterclockwise, so that rod 82 and bar vI I8 are again pushed to theleftand relatched by the pilot latching mechar'iism, as previously described. Spring 83 biases follower 15 to the left, thus causing latch piece was move upward into cam recess 88"and the 'camco ntinues to rotate until latch piece 19 engages cam edge 88a to prevent further movement of the cam 10 and stem 36". In this position of the latch mechanism, main valve" I9 is able to fully close under-action of line pressure, and'se'condary valve 21 is kept from closing by the interlock of extension 19 and cam edge 88a. It will be seen, therefore, that before the full predetermined fiowha spassed through the meter, the latch mechanism was trippedto-allow'the main valve I9 toclos e, while the secondary-valve 21 remains open, thus con tinuing the delivery at a reducedlr'ate of fiow, and the pilot latch mechanismha been recocked ready for'another release uponcorripletionof the delivery. Continued rotation of the units prede termining counter wheel -22I forten revolutions causes tens wheel 222 to rotate ne tenth of a revolution, thus moving notch 23,1 out of engage-, ment with roller 266, so that when notch 232 comes opposite roller 265 'the weight 260v will .be held elevated. When unit wheel 22f has only onemore' revolution to go to completedelivery, notches 230 and 221 are brought into ,alignment opposite rollers266 and 261, andwher the. predetermined quantity has passed .through the, meter the notch 232 'Y is brought. opposite. roller co-operating with said cam for retaining said valve means in open position, pilot latch means, a member for releasing said follower adapted to be retained in latched position by'said pilot latch means, selector means actuated by the, meter to trip said. pilot latch means and release said member when a predetermined quantity of fluid passes through the meter, means on said cameo-operate ing with said follower to retainthevalve means in reduced flow positionto allow areduced flow therethrough, means on said cam cO-operating with said follower to cocl; said member and pilot latch means during closing movement of said valve means, and further selector actuated means for tripping said pilot latch means to stop flow through the valve means when a further predetermined quantity of fluid passes through said meter.

6. In a dispensing apparatus, a fluid meter," valve means comprising. a large, valve and a'srnall valve for controlling now through the meter, an operating stem for said valve means, valve retaining means comprising acam actuated bysaid operating stemand'a follow enco-operating with said cam for retaining'said valve'meansin open position, a member for releasing said valve retainingmeans, means on saidc'am 'co-operating with said follower adapted to move said member into potential position, pilot latch means for latching said member in p tential position, tripping means for said latch'meansj selector means actuated by the meter and "controlling s'aid'tripping meansto trip said pilot latch means and release said member to release said large -valve when one predetermined quantity'of fluidpasses through the meter,- meanson said camco oper ating with said follower to retain thesmall valve in open position to allow a reduced flow, and said selector means having meansfor effecting a'secnd operation of said tripping means to-trip said pilot latch means to release the small valve and stop flow therethrough when aflllthel predetermined quantity of fluid passes through the meter.

'7. In a dispensing .apparatus,the combination of a fluid meter, valve means for controlling flow therethrough, means controlling the closure of said valve means including pilotlatching means, a striker member held in 'flxed'potentiallpo sition by said pilot latching means, means actuated upon closing movement of said valve meanafor moving said striker member to' potential position and cocking'said pilot'latchingmeans, means for latching said valve means in reduced "flow posi tion, and means for tripping said pilot latching means when a predetermined quantity of fluid passes throughthemeter. ""j

8. In a dispensing apparatus, the ccmbination of a fluid meter, valve means for controlling flow through said meter, manual means to open said valve means, means forlatching saidvalve'means in open position, a selector actuated by'the meter for trippingsaid valve latching means when a predetermined quantity of fluid passes if through the meter, means actuatedby the valve means during closing movement of the valvemeans for relatching said valve means inpartly open position to allow a reduced flow therethrough, and means totrip said valve latching Imeansto stop flow therethrough when a predetermined quantity of fluid passes through said meter.

9. In a dispensing apparatus, the combination of a fluid meter, valve means for controlling flow through the meter compri ing a small valve (3011-,- pled by a lostmotion eonnectionto a large valve, manual means to first open the small valve and then to open the. large valve, meansfor latching said valve means in open position, tripping means for said latching means, a selector actuatedby the meter and controlling said tripping means to trip said valve latching means when one predetermined quantity of fluid passes through the meter, said valve latching means including means operative in the'closing movement of the large valve to relatch the small valve in open position while the large valve is closed to allow a reduced flow through .the valve means, and said selector having means to cause a second operation of said tripping means and trip said valve latching means to stop flow through said Valve means when a further predetermined quantity of fluid passes through said meter.

10. A dispensing apparatus as specified in claim 9, wherein said large valve comprises a shielded cylindrical member, and a reduced flow means is provided for cushioning the closing movement of the large valve.

11. A dispensing apparatus as defined in claim 9, wherein said lost motion includes compressible spring means between the large and small valves adapted to be compressed upon opening of, the small valve and move the large valve from its seat.

12. In a dispensing apparatus, the combination of a fluid meter, valve means for controlling flow through the meter comprising a small valve coupled by a lost motion connection to a large valve, manual, means to first open the small valve and then to open the large valve, means for latching said valve means in open position, a selector actuated by the'meterfor tripping said valve latching means when a predetermined quantity of fluid passes through the meter, means'for retaining the small valve in open position while the large valve is closed to allow a reduced flow through the valve means, and means to trip said valve retaining means to stop flow through'the' valve means when a predetermined quantity of fluid passes through the meter, l

13. In a dispensing apparatus, the combination of "a fluid meter, valve means for, controlling flow through the meter comprising a small valve and a large valve, means for latching said valve means in open position, selector mechanism comprising a plurality of disks driven in difierent degrees of rotation by said meter having notches therein and feeler mechanism adapted to cooperate withfsaid notches to selectively trip the latching means for the large valve when a predetermined quantity of fluid passes through the meter, the small' valve being latched in open position to allow a reduced fl'ow through the meter, said feeler mechanism 00- operating with said notches to trip the latching means for the small valve to stop flow therethrough when a further predetermined quantity of fluid passes through said meter.

14; In a dispensing apparatus, a fluid'meter, a large valve and a small valve for controlling flow through the meter, means for retaining the large valve and small valve in open position, a pilot latch, valve releasing means held by the pilot latch, pilot latch tripping means, selector means actuated by the meter and having means cooperating with the pilot latch tripping means to trip the pilot latch and release the large valve when a predetermined quantity of fluid passes through the meter, means for recocking said valve releasing means and pilot latch, and said selector having additional means cooperating with the pilot latch tripping means to trip the pilot latch and release the small valve when a predetermined quantity of fluid passes through the meter.

15. In a dispensing apparatus, a fluid meter,

the opposite direction, register controlled means for releasing said restraining means at predetermined times in each operating cycle of the meter, and means controlled by said restraining means and rendered effective upon release thereof to move said latter member in said opposite direction and actuate said element in latch releasing direction.

24. The predetermining mechanism defined in claim 23, in which said last named means is an energy storing device rendered eifective to actuate said member in latch releasing direction when said member is moved by the latching element into cooperative engagement with said restraining means. i

25. In a dispensing apparatus, the combination of a fluid meter, valve means for controlling flow through said meter, valve latching means for latching said valve means in open position, a

striker member, pilot latching means for latching said striker member in fixed potential position,

selector means actuated by said meter, means controlled by said selector for rendering said striker means operable for tripping said pilot latching means when a predetermined quantity of fluid passes through the meter, means responsive to operation of said meter for relatching said striking member in potential position, means actuated by closing ofsaid valve means for relatching said valve means in reduced flow position, and further selector means actuated by said meter for again rendering said striker means operable for tripping said pilot latching means when a predetermined further quantity of fluid passes through the meter.

EINAR THORESEN.

WALTER H. MARSH. 

